Anticancer Drug Modified GCFE, for the Study of Its In‐Vivo Interaction Mechanism

Abstract

AbstractAn anticancer drug (Adriamycin) modified Glassy Carbon Fiber Electrode (GCFE) has been prepared to study its interaction with ds‐DNA. The redox reaction of Adriamycin molecules at the chemically modified GCFE helps in understanding the in‐vivo mechanism of action of this anti cancer drug.The modified electrode has been fabricated by the adsorption of Adriamycin on GCFE surface. The results of Differential Pulse Voltammetric (DPV) analysis in acetate buffer of pH 4.5 ± 0.1, showed that the interaction between DNA guanine and adenine bases and electrode surface, is easily detected. A suitable mechanism for the oxidation and reduction of Adriamycin in‐situ intercalated in ds‐DNA immobilized on to the GCFE surface has been explained. The drug‐DNA complex formation at GCFE surface has also been studied.The prepared modified electrode is of utmost relevance because the mechanism of interaction of DNA‐Adriamycin at charged interfaces is parallel to the in‐vivo DNA‐Adriamycin complex reaction, where the nucleic acid is in close contact with charged phospholipid membranes and proteins. The interaction studies of Adriamycin at modified GCFE using DPV method help in understanding the DNA‐Adriamycin reaction mechanism.